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围产期是奶牛生产周期中较为关键的时期,此阶段奶牛机体容易出现能量负平衡、免疫力低下等问题。蛋氨酸作为奶牛机体内具有限制性的必需氨基酸,不仅发挥营养调控作用,还具有调节奶牛繁殖能力、免疫能力和生长性能等功能。该文对围产期补充过瘤胃蛋氨酸对奶牛生产性能和免疫能力影响的研究进展进行阐述,以期为过瘤胃蛋氨酸产品在奶牛围产期的科学应用提供理论参考。 相似文献
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《畜牧兽医科技信息》2015,(7)
<正>能量负平衡是指物质摄入减少但是奶牛的需求仍在增加,这也是围产期奶牛的能量代谢特点。围产期是奶牛生产全过程中至关重要的组成部分,也是奶牛能量代谢障碍性疾病高发的时期,了解围产期奶牛能量负平衡的现象特征是进行疾病防治的基础。本文对围产期奶牛出现能量负平衡的原因进行了深入的分析,旨在为解决围产期奶牛能量负平衡问题与疾病预防提供新思路。1围产期奶牛能量负平衡的产生原因能量负平衡多高发时期是奶牛日产奶量达到30kg前的 相似文献
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奶牛围产期脂肪代谢的研究进展 总被引:1,自引:0,他引:1
围产期是奶牛的关键阶段,由于能量摄入减少、需求增加造成能量负平衡。脂肪动员是围产期奶牛能量负平衡的必然结果。本文综述了奶牛围产期脂肪代谢的变化特点,并总结了脂肪代谢的调控措施,以期为奶牛生产提供理论基础和实践参考。 相似文献
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营养物质代谢改变是围产期奶牛的主要特点,本文对近年来奶牛在围产期出现的能量、糖类和钙的代谢变化的研究进展作一综述。 相似文献
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为了阐明不同能量平衡状况的围产期奶牛泌乳量、干物质摄入的变化及其机体代谢调节作用。在某一集约化牛场选取胎次、年龄相近的奶牛,分为高血糖组(H)和低血糖组(L),每组各15头。在产前21、14、7d和分娩当天,产后7、14、21d,分别记录奶牛围产期干物质摄入量(DMI)、泌乳量(MY),并测定血浆血糖(Glu)、游离脂肪酸(NEFA)、β-羟丁酸(BHBA)、胰岛素(Ins)、胰高血糖素(Gn)、瘦蛋白(Lp)、皮质醇(Cor)的浓度。结果显示,试验奶牛产后泌乳量和干物质摄入量均增加,但是产后能量负平衡发生率高于产前,产后21d达最高;两组产后血浆Glu水平均降低,血浆NEFA和BHBA升高,L组血浆NEFA和BH-BA水平高于H组(P0.05);H组血浆Ins与Lp水平高于L组(P0.05),血浆Gn与Cor水平低于L组(P0.05)。围产期不同能量平衡状态的奶牛机体能量代谢发生了各自适应性的变化。血浆低水平Ins、Lp和高水平Cor在缓解能量负平衡方面发挥了重要作用。 相似文献
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乳酸在奶牛体内的代谢途径及其对奶牛健康影响的研究进展 总被引:1,自引:0,他引:1
乳酸(lactic acid)是奶牛瘤胃内重要的中间代谢产物,合理的调节乳酸代谢特征、充分利用及发挥乳酸的有益功能对奶牛健康生产具有重要意义。文章介绍了乳酸的合成途径及主要产酸菌、乳酸的代谢途径及主要利用菌、乳酸在奶牛瘤胃内的代谢方式及影响其代谢的因素,详细阐述了乳酸产生菌与利用菌对乳酸代谢调节的影响,同时介绍了植物提取物对乳酸代谢调节作用及乳酸代谢调节对奶牛胃肠道菌群、泌乳性能和乳房炎的影响。为进一步了解乳酸对奶牛健康的作用机制及相关植物活性物质在生产实践中的应用提供理论依据,为解决高精料饲粮引起的奶牛酸中毒的预防与治疗提供新思路。 相似文献
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Health problems occurring during the transition period in dairy cattle are of utmost importance as they can decrease the animal’s reproductive performance and favor the development of various metabolic diseases with resultant significant reproductive disorders. Among the commonly reported metabolic diseases occurring during that time, hyperketonemia is the most prevalent and could provoke a significant economic impact. The failing of a dairy cow to transit optimally between pregnancy and lactation is economically very relevant and should be considered. Until now, the role of insulin resistance (IR) in the etiology of subclinical ketosis (SCK) in dairy cattle is not clearly understood. This review aims to shed some light on the role of IR and oxidative stress in dairy cows with SCK during the transition period. The data presented in this review demonstrates that dairy cows could be vulnerable to the development of negative energy balance during transition. Moreover, the transitional cows could succumb to both IR and oxidative stress; however, the exact role of IR in cows with SCK needs further investigations. It is imperative to elaborate a suitable nutritional strategy to facilitate an easy transit of cows through this critical period and to minimize health problems and improve productivity during lactation. 相似文献
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奶牛养殖过程中,围产期被认为是最重要的时期之一,在该时期奶牛从干奶状态转为泌乳状态,生理上所受的应激造成奶牛泌乳早期采食量降低,易发生能量负平衡.此外,奶牛生产性能和繁殖性能也会降低,并常常伴有一些围产期疾病的发生,如脂肪肝、酮症、乳房炎等.胆碱能影响奶牛的生产与繁殖性能,参与奶牛的脂肪代谢,可降低脂肪肝发生率,提高免疫性能.对围产期奶牛饲喂过瘤胃保护胆碱(rumen protected choline,RPC),可改善奶牛机体代谢,增加小肠胆碱供应,进而提高奶产量、改善乳成分、缓解脂肪肝、减少围产期疾病的发生.本文综述了RPC对围产期奶牛干物质采食量、生产性能、乳成分以及健康状况的影响,旨在为围产期奶牛的养殖提供理论参考依据. 相似文献
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现代规模化、集约化奶牛养殖生产模式下,不断供给高营养水平日粮是维持后备牛快速生长发育和泌乳母牛高泌乳性能的物质基础。然而,在遗传品质到达"瓶颈期"后,尽管随着日粮营养浓度的不断提高和干物质采食量(DMI)的增加,奶牛单产水平可以继续维持在一定的高水平状态,但是高产奶牛的营养代谢性疾病的发病率也呈现快速增长趋势,特别是围产期能量负平衡(negative energy balance,NEB)引起的酮病,高精日粮引发的酸中毒、高蛋白质日粮引起的血液中尿素氮升高等营养代谢性疾病,负调控奶牛繁殖性能,造成奶牛产后发情不明显,配种率和受胎率下降等,直接影响奶牛生产群的更新速度、优质牛群泌乳性能正常发挥以及奶牛养殖的经济效益。作者详细介绍了近年来国内外不同营养代谢性疾病对奶牛繁殖性能影响的相关研究资料,重点分析了酮病、低血钙、瘤胃酸中毒等围产期高发的营养代谢性疾病影响奶牛繁殖性能的分子机制,并对营养代谢性疾病与高产奶牛繁殖性能今后研究的方向提出了展望和思考,以期为提高中国规模化牧场高产奶牛群繁殖效率和母牛围产期营养管理水平提供一定的借鉴和理论依据。 相似文献
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ZHAO Shanjiang HAO Haisheng LIU Yunxiang WANG Xianjun XU Li LI Laibao HU Zhihui ZHU Huabin 《中国畜牧兽医》2007,47(11):3618-3625
Under the modern large-scale and intensive dairy farming production mode,the continuous supply of feed with high nutrition level is the material basis for maintaining the rapid growth and development of reserve cows and the high lactation performance of lactating cows.However,after the genetic quality reaches the "bottleneck period",although the milk yield of dairy cow can continue to maintain a certain high level with the continuous improvement of the nutrient concentration of feed and the increase of dry matter intake (DMI),the incidence of nutritional metabolic diseases of high-yield dairy cows also shows a rapid growth trend,especially ketosis caused by the negative energy balance in perinatal period,acidosis caused by high-precision diet and the increase of blood urea nitrogen caused by high-protein diet,negatively regulate the reproductive performance of dairy cows,resulting in inconspicuous postpartum estrus,decreased mating rate and conception rate of dairy cows,which directly affect the update speed of dairy cows production groups,the normal performance of high-quality cattle and the economic benefits of dairy farming.In this paper,the author introduced in detail the relevant research on the current situation and its mechanism influence of different nutritional metabolic diseases on the reproductive performance of dairy cows in recent years,and focused on analyzing the molecular mechanism of nutritional and metabolic diseases with high perinatal incidence such as ketosis,low blood calcium and moderate gastric acid,and put forward the prospect and thinking on the future research direction of nutritional and metabolic diseases and reproductive performance of high-yielding dairy cows,in order to provide some reference and theoretical basis for improving the reproductive efficiency of high-yielding dairy cows in large-scale pastures in China and the perinatal nutrition management level of dairy cows. 相似文献
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Molecular insights into the mechanisms of liver‐associated diseases in early‐lactating dairy cows: hypothetical role of endoplasmic reticulum stress 
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下载免费PDF全文 R. Ringseis D. K. Gessner K. Eder 《Journal of animal physiology and animal nutrition》2015,99(4):626-645
The transition period represents the most critical period in the productive life of high‐yielding dairy cows due to both metabolic and inflammatory stimuli, which challenge the liver and predispose dairy cows to develop liver‐associated diseases such as fatty liver and ketosis. Despite the fact that all high‐yielding dairy cows are affected by marked metabolic stress due to a severe negative energy balance (NEB) during early lactation, not all cows develop liver‐associated diseases. Although the reason for this is largely unknown, this indicates that the capacity of the liver to cope with metabolic and inflammatory challenges varies between individual high‐yielding dairy cows. Convincing evidence exists that endoplasmic reticulum (ER) stress plays a key role in the development of fatty liver, and it has been recently shown that ER stress occurs in the liver of high‐yielding dairy cows. This indicates that ER stress may be involved in the development of liver‐associated diseases in dairy cows. The present review shows that the liver of dairy cows during early lactation is exposed to several metabolic and inflammatory challenges, such as non‐esterified fatty acids, tumour necrosis factor α, interleukin‐1β, reactive oxygen species and lipopolysaccharides, which are known inducers of ER stress. Thus, ER stress may represent a molecular basis for fatty liver development and account for the frequent occurrence of fatty liver and ketosis in high‐yielding dairy cows. Interindividual differences between dairy cows in the activation of hepatic stress response pathways, such as nuclear factor E2‐related factor 2, which is activated during ER stress and reduces the sensitivity of tissues to oxidative and inflammatory damage, might provide an explanation at the molecular level for differences in the capacity to cope with pathological inflammatory challenges during early lactation and the susceptibility to develop liver‐associated diseases between early‐lactating dairy cows with similar NEB and milk yield. 相似文献